KR100206748B1 - Wastewater treatment device with high efficiency using granula carrier - Google Patents

Abstract

The present invention relates to a high-efficiency waste and sewage treatment apparatus using a granular carrier, comprising an aeration portion for treating contaminants in waste and sewage while continuously circulating waste, sewage, carrier and air. In the reaction tank consisting of a precipitation section for precipitating the carrier so that the carrier does not flow out of the mixed solution, by installing the carrier overflow prevention plate below a certain height above the water level when the water is full, the flow of waste and sewage to the upper end of the carrier overflow prevention plate The actual treatment capacity can be extended to not only the aeration but also between the carrier overflow prevention plate and the separating plate, and the flow of waste and sewage in the ascending movement can be smoothly converted into the descending movement to reduce the amount of air. In order to reduce the amount of energy required to supply air by smoothly moving the carrier, A plate is mounted, and a bent portion is formed in which both ends of the guide plate are bent in the flow direction of the waste and sewage, and the induction area of the inclined plate is greatly reduced while reducing the dead zone and smoothly maintaining the circulation of the waste and sewage. The separator is formed to be inclined at a predetermined angle with the carrier overflow prevention plate so as to increase the circulation efficiency while separating the upper and lower circulation flows of the waste and sewage, which are formed at a predetermined length at the center side of the wall before and after the reaction tank. The effect is to increase the overall processing efficiency and to significantly reduce the installation site and cost.

Description

High efficiency waste and sewage treatment device using granule carrier

The present invention relates to a high-efficiency waste and sewage treatment apparatus using granule carriers, and more particularly, to an apparatus for treating waste and sewage using a biological treatment granule carrier using waste tires.

In recent years, regulations on the environment are increasingly being strengthened to meet the demands for the strengthening of water quality standards and the demand for a pleasant environment in order to reduce water pollution worldwide. In particular, the wastewater discharge allowance standards for discharged water discharged from wastewater treatment facilities and treated water discharged from industrial facilities have been enforced up to 40% or more.However, as the industry develops, the expansion of existing plants becomes inevitable. The amount of industrial wastewater is increasing, but the current waste and sewage treatment facilities are not able to cope with the increasing amount of waste and sewage, and the expansion of waste and sewage treatment facilities requires a lot of installation space and cost. A huge installation burden has arisen.

In order to solve such a conventional problem, various measures have been prepared. Among them, a fluidized bed wastewater treatment method which is 6 times faster than the conventional activated sludge method by using a carrier (hereinafter referred to as granular carrier) made by recycling waste tires In this case, biological wastewater treatment is used to decompose pollutants dissolved in water by utilizing the characteristics of microorganisms, which are decomposers, to obtain energy, and microorganisms that proliferate are separated from the sediment by solid-liquid separation to remove excess sludge rolls. It is up to the treatment.

Conventional waste and sewage treatment apparatus used in this treatment method is a rectangular reaction tank (1) consisting of an aeration section (1a) and a precipitation section (1b), and the reactor ( 1) an diffuser 2 for supplying air A inside, an diffuser 3 for spraying air A supplied from the diffuser 2 to the bottom of the aeration unit 1a, and Separation plate 4 for separating the treated water and the mixture of sludge and carrier treated in the aeration section 1a, and the reaction tank 1 is separated into an aeration section 1a and a settling section 1b for waste and sewage. Flows through the outlet 12, the carrier overflow prevention plate 20 for preventing the outflow of the carrier, the flow rate distribution tank 5 for continuously introducing waste and sewage into the reaction tank 1, and the flow rate distribution. Raw water inflow pipe 6 which introduces waste and sewage through the tank 5 into the reaction tank 1 and the waste and sewage between the waste and sewage by vertical movement so that the water in the reaction tank 1 circulates up and down smoothly. Separation plate 7 to reduce the amount of water, outlet 12 for constantly flowing out the suspended solids such as water and sludge treated by the microorganisms in the reaction tank 1, and aeration waste and sewage aeration A predetermined angle is provided at an inclined plate 9 which is guided smoothly to the bottom surface of 1a, and an upper corner of the reaction tank 1 so as to smoothly lower waste and sewage rising from the aeration unit 1a. The inclined surface 10 is formed of an inclined surface 10 in which a space is formed in a predetermined area. At this time, between the carrier overflow prevention plate 20 and the wall surface of the reaction tank 1, the lower end of the inclined plate 9 and the space portion of the inclined surface 10 is formed of a dead zone (11) not included in the processing capacity Will be.

In the conventional waste and sewage treatment apparatus configured as described above, the waste and sewage of the flow distribution tank 5 is supplied to the aeration part 1a of the reaction tank 1 through the raw water inlet pipe 6, and the diffuser 2 Air (A) transferred through) is injected to the bottom of the aeration portion (1a) through the acid substrate (3) to induce the up and down circulation of the waste and sewage. Waste, sewage, and granular carriers (C) rise as they are mixed with this air (A). At this time, upward flow is increased along one side of the separator 7 mounted at the inner center of the aeration part 1b, and the upward flow is along the inclined surface 10 formed at the upper edge of the reactor 1. As it is converted to the descending flow and moves downward between the carrier overflow prevention plate 20 and the separator 7, it is quickly moved along the inclined plate 9 to the bottom surface of the aeration unit 1a. At this time, the sludge and the granular carrier partially accumulated on the bottom surface of the aeration portion 1a by the transport force of the waste and sewage descending along the inclined plate 9 and the force of the air A injected from the acid substrate 3. (C) can be circulated continuously without accumulation. At this time, a part of water, air, and sludge treated with contaminants by the microorganisms embedded in the granule carrier (C) is reversed along the inclined plate (9) through the carrier overflow prevention plate (20) to precipitate (1b). Will be moved to. During this movement, air having a low specific gravity descends between the separation plate 4 and the carrier overflow prevention plate 20 and is naturally discharged as bubbles to the outside, and the remaining treated water and sludge remain in the settling portion 1b for a predetermined time. The carrier precipitates and the treated water and sludge are discharged out of the reactor through the outlet.

Conventional waste and sewage treatment apparatus using the granule carrier (C) induces this circulation movement in order to facilitate the up and down circulation of the waste and sewage, and at the same time, the sedimentation unit ( The angle and guide area of the inclined plate 9 and the inclined surface 10 for guiding a part of waste and sewage to 1b) must be maintained at a predetermined size or more, and the inclined plate 9 and the inclined surface 10 may be installed to meet this condition. Since the area occupied by the reaction tank 1 becomes large, the waste and sewage are moved to the lower end of the inclined plate 9 and the space of the inclined surface and the lower end of the carrier overflow prevention plate 20 to settle the portion 1B. The dead zone 11 is not included in the treatment capacity, such as between the carrier overflow prevention plate 20 and the wall surface of the reaction tank 1 included therein, so that the actual treatment capacity is 40 of the total capacity. As a percentage, only the aeration section 1a is the Will be limited, and for handling the same amount of the consuming waste, sewage treatment device had the disadvantage that the installation space is extremely reduced waste, wastewater treatment efficiency.

Accordingly, the present invention facilitates vertical circulation of waste, sewage and carrier to solve the above-mentioned problems, and at the same time, reduces the dead zone and greatly increases the actual treatment capacity used for waste and sewage treatment to about 90%. The purpose of the present invention is to provide a highly efficient waste and sewage treatment apparatus using a granular carrier to reduce the cost of installation by easily modifying and using the standard activated sludge treatment system.

Waste and sewage treatment apparatus according to the present invention in order to achieve the above object by installing a carrier overflow prevention plate below a certain height than the water level when the water is full, preventing the flow of waste and sewage and carrier circulated By lowering through the upper end of the plate is characterized in that the actual treatment capacity for the entire reaction tank can be extended to not only the aeration portion but also between the carrier overflow prevention plate and the separation plate.

In addition, when the rising air flows directly to the outside, a large amount of air must be injected for a smooth flow in the reaction tank, but the inner upper part of the reaction tank so as to smoothly convert the flow of the wastewater and sewage that performs the upward movement into the downward movement. Since several guide plates are installed at to lower the flow of rising air, it is possible to induce a smooth flow of emulsion in the reaction tank without supplying a large amount of air, and both ends of the guide plates are bent in the flow direction of waste and sewage. It is characterized by.

In addition, by replacing the inclined surface of the upper portion with the guide plate, the induction plate is introduced into the upper portion of the guide plate with a predetermined interval with the reaction tank to introduce the inflow water to remove the existing dead zone portion completely It is done.

In addition, when the existing activated sludge method is modified due to the carrier overflow prevention plate and the induction plate, the slope and the induction area can be greatly reduced to reduce the dead zone, and at the same time, the fluid circulation in the reactor can be naturally induced, and the lungs · It is characterized in that less energy is required for sewage treatment.

In addition, the separator is inclined at a predetermined angle with the carrier overflow prevention plate to prevent sludge and carrier accumulation at the bottom of the reactor by circulating efficiency and lowering the flow velocity that is lower than the flow velocity of the rising fluid while separating the upper and lower circulation flows of waste and sewage. It is characterized in that it is mounted to achieve.

1 is a longitudinal sectional view of a conventional rectangular waste and sewage treatment apparatus connected in parallel

Figure 2 is a longitudinal cross-sectional view showing a rectangular waste, sewage treatment apparatus according to the present invention

3 is a longitudinal cross-sectional view of the apparatus of FIG. 2 connected in parallel;

* Explanation of Signs of Major Parts of Drawings *

A: air C: granular carrier

1: Reactor 1a, 1a ': Aeration part

1b, 1b ′: Precipitate 2: Air pipe

3: acid substrate 4: separation plate

5: flow rate distribution tank 6: raw water inlet pipe

7,7 ′: Separator 8: Drain valve

9,9 ′: Slope 10: Slope

11,11 ′: Dead Zone 12: Outlet

20,20 ′: Carrier overflow prevention plate 40: Induction plate

41: bending portion 50: external leakage wear

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The present invention is provided with a device for effectively treating waste and sewage using a granule carrier, as shown in the accompanying drawings 2 and 3, while forming a predetermined inclination on one side front and rear wall surface of the reaction tank (1) By installing the fixed carrier overflow prevention plate 20 'below a certain level above the water level in the full state, the flow of waste and sewage is lowered through the upper end of the carrier overflow prevention plate 20'. The silver can be extended to not only the aeration portion 1a 'but also the carrier overflow prevention plate 20' and the separator 4.

Several guide plates 40 are mounted on the inner upper portion of the aeration portion 1a 'so as to smoothly convert the flow of the waste and sewage in the upward movement into the downward movement, and both ends of the guide plate 40 are closed. A bent portion 41 bent in the flow direction of the sewage is formed, spaced apart from the lower end of the carrier overflow prevention plate 20 'by a predetermined distance and mounted inclined between the side and bottom of the reaction tank (1), The dead zone 11 occupied by the installed inclined plate 9 'is greatly reduced in order to reduce the dead zone 11' and to maintain the wastewater and sewage circulation efficiency smoothly. In addition, by replacing the inclined surface (10 ') of the upper portion with the guide plate and the guide plate at a predetermined interval with the reaction tank so that air flows in between, and the inlet water flows into the upper portion of the guide plate to completely eliminate the existing dead zone, The separator plate 7 'is formed to have a predetermined length at a central side of the front and rear walls of the aeration unit 1a so as to increase the circulation efficiency while separating the upper and lower circulation flows of waste and sewage. It is mounted while inclining at a predetermined angle.

In addition, a notch-shaped external outflow wear 50 is formed at an upper end of the reaction tank 1 in which the discharge port 12 is formed so that the treated water treated by the microorganisms in the reaction tank 1 may be discharged to the discharge port. The drain valve 8 is mounted on one side of the bottom surface of 1).

As illustrated in FIG. 3, the waste and sewage treatment apparatus configured as described above has the aeration portion 1 a ′ of the reaction tank 1 through the raw water inlet pipe 6. It will be supplied internally. At this time, when the granular carrier (C) is supplied to the reaction tank, the microorganisms adhere to the surface of the granular carrier to grow and grow by feeding the contaminants, and the granular carrier has strong chemical resistance and abrasion resistance to supply once. It can be used semi-permanently. Contaminants such as waste and sewage are decomposed by the microorganisms contained in the granular carrier (C), and the decomposed sludge or foreign matter is deposited on the bottom surface of the aeration section 1a '. At the same time, the air A supplied through the diffuser 2 is supplied to the acid substrate 3, and the supplied air A is at the bottom of the aeration portion 1 a ′ through the acid substrate 3. It is sprayed toward the surface. At this time, foreign matter such as waste, sewage and sludge mixed in the reaction tank 1 and the granular carrier (C) rise due to the flotation force of the air (A), and the raised waste, sewage and air (A ) Is directed toward the guide plate 40 while rising to one side of the separator 7 ', and smoothly circulates along the rotation radius of the guide plate 40, and the bent portion 41 of the guide plate 40 is As the upward flow is converted to the downward flow by the direction of flow), the flow in the aeration portion 1a 'is formed by a predetermined vertical rotational motion.

At this time, the waste and sewage are moved downward through a predetermined path formed between the carrier overflow prevention plate 20 'and the separator 4 by the flow of waste and sewage in the aeration portion 1a'. The air (A) included is released to the outside of the reaction tank due to the floating force of the bubble, the granular carrier (C) having a relatively high specific gravity continues to descend as it is through the inclined plate (9 ') of the aeration (1a') It is moved to the bottom surface, the remaining treated water and sludge, etc. are raised toward the outlet 12 based on the separator (4). At this time, when the overall water level of the reaction tank 1 is increased, the treated water is discharged to the outlet 12 by a predetermined amount through the outflow wear 50.

In addition, when treating a large amount of waste and sewage, when the rectangular waste and sewage treatment apparatus is installed in parallel as shown in FIG. 3, the installation place can be minimized and the convenience of piping connection can be obtained, and the maximum treatment volume can be obtained. You can get it. For example, another similar device in the related art has a total volume of 27.6 m ³ , but since 11.87 m ³ is used as the inclined plate 9 ′ to incline the square for installation and smooth flow of the carrier C, the actual device is used. The flow tank volume is 15.8m ³ and the volume not used for treatment is about 50% of the total volume, so that the treatment capacity of the waste and sewage treatment device is only 40% of the total volume. 9 deujon ') occupied area due to the very small total volume of the installation and the swash plate (9 to facilitate the flow of the carrier (C) at 22.7m ^3, and the volume of) long, 1.3m ^3, that are not used (Dead Zone 11 ') is very small, less than 10% of the total volume, and the remaining 90% is to be used as a treatment capacity for treating wastewater.

As described above, the waste and sewage treatment apparatus according to the present invention is capable of rapid treatment of waste and sewage by adding a granular carrier, and improves the treatment capacity of the aeration portion required for actual waste and sewage treatment by reducing the dead zone. The treatment efficiency is improved, and the waste and sewage treatment devices can be connected in parallel so that the installation place can be minimized, the convenience of pipe connection, and the existing buried treatment device can be easily modified and used. The effect is to reduce the cost.

Claims (4)

A rectangular reaction tank comprising an aeration portion and a precipitation portion, an acid pipe formed in the longitudinal direction inside the aeration portion, a plurality of acid substrates branched from the lower end of the acid pipe, a separator formed on one side in the precipitation portion, Flow rate distribution tank and raw water inflow pipe which inflow waste and sewage into the aeration part uniformly, Separation plate vertically mounted to the center one side of the wall surface before and after the aeration part, and the slope between one side wall surface and the bottom surface of the reactor In the wastewater and sewage treatment apparatus consisting of the inclined plate and configured to be connected in parallel, by installing a carrier overflow prevention plate below a certain level above the water level when the water is full, the wastewater and sewage and carrier The actual treatment capacity is wide by descending through the upper end of the tank and degassing the bubbles outside the reactor while descending between the carrier overflow prevention plate and the separation plate. Unit as well as a high efficiency waste, sewage treatment equipment carrier overflow, and to extend up between the protection plate and the distribution plate, as a precipitation unit for deujon using granular carrier, characterized in that the space between the side wall surface of the distribution plate and the reactor. According to claim 1, The waste and sewage flow in the ascending movement is smoothly converted to the descending movement and reduce the amount of air supply to induce this flow to reduce energy consumption and increase the air dissolution rate A high efficiency waste and sewage treatment apparatus using a granular carrier, characterized in that a guide plate is mounted on the front and rear wall surfaces at an inner upper portion, and both ends of the guide plate are formed as bent portions bent in the flow direction of waste and sewage. According to claim 1 or claim 2, by installing the guide plate in the interior of the carrier overflow prevention plate and the reaction tank lower than the water surface, the area of the inclined plate is greatly reduced to reduce the dead zone and at the same time circulating waste and sewage A high-efficiency waste and sewage treatment apparatus using a granular carrier, characterized in that the movement is smoothly maintained, and the carrier and the waste and sewage are separated between the carrier overflow prevention plate and the separation plate to separate bubbles. The separator is inclined at a predetermined angle so as to reduce the cross-sectional area descending from the rising cross section while separating the upper and lower circulation flows of the waste and sewage so as to induce the descending speed to increase the circulation efficiency. High-efficiency waste and sewage treatment apparatus using a granular carrier, characterized in that the mounting to achieve.

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